ZINC CHLORIDE
CAS Number:7646-85-7
EC Number:231-592-0
SYNONYMS
Zinc(II) chloride;Zinc dichloride;Butter of zinc; zinc chloride;Zinc dichloride;7646-85-7;Zinc butter;Zinc chloride (ZnCl2);Zinc(II) chloride;Zinkchloride;Zintrace;Zinc chloride fume;Zine dichloride;Zinc chloride, Zinc (chlorure de);Zinco (cloruro di);Zinkchlorid;Zinkchloride;Caswell No. 910;Zinc chloride ;Chlorure de zinc ;Zinc (chlorure de);CCRIS 3509;Zinc chloride 0.1 M ;Zinco (cloruro di);HSDB 1050;EINECS 231-592-0;UN1840;UN2331;EPA Pesticide Chemical Code 087801;NSC 529648;AI3-04470;Zinc chloride (TN);ZINC CHLORIDE (ZNCL2) ; ZINC CHLORIDE; ZINC CHLORIDE; BUTTER OF ZINC; CHLORURE DE ZINC ; ZINC (CHLORURE DE) ; ZINC BUTTER; ZINC CHLORIDE FUME; ZINC CHLORIDE FUME ; ZINC DICHLORIDE; ZINCO (CLORURO DI); ZINKCHLORID;ZnCl2; Butter of zinc; Chlorure de zinc; Zinc (chlorure de); Zinc chloride (ZnCl2); Zinc dichloride; Zinc muriate; Zinc Butter; Zinco (cloruro di); Zinkchlorid; Zinkchloride; Tinning flux; UN 1840; UN 2331; Zinc chloride, anhydrous; Zinco; Zinctrace; Hydrochloric acid zinc salt (2:1);Butter of zinc;Zinc dichloride;Zinc(II) chloride;Zinc chloride; çinko; çinko klorür;çinko klorid;çinko 2 klorür;çinko(II) klorür;çinko-2-klorür;çinkoklorür;çinko 2 klorid;çinko (II) klorid;zinc klorür;Zinc(II) chloride;Zinc dichloride;Butter of zinc;Zinc dichloride;Zinc(II) chloride;Zinc chloride; çinko; çinko klorür;çinko klorid;çinko 2 klorür;çinko(II) klorür;çinko-2-klorür;çinko 2 klorid;çinko (II) klorid;zinc klorür;Zinc(II) chloride;Zinc dichloride;
PROPERTIES
-Physical Data: mp 293 °C; bp 732 °C; d 2.907 g mL−1.
-Solubility: sol H2O (432 g/100 g at 25 °C), EtOH (1 g/1.3 mL), glycerol (1 g/2 mL).
-Form Supplied in:white, odorless, very deliquescent granules; principal impurities are H2O and zinc oxychloride.
-Analysis of Reagent Purity: melting point
-Purification reflux (50 g) in dioxane (400 mL) in the presence of Zn0 dust, then filter hot and allow to cool to precipitate purified ZnCl2. Also, anhydrous material may be sublimed under a stream of dry HCl, followed by heating to 400 °C in a stream of dry N2.
-Handling, Storage, and Precautions: very hygroscopic; store under anhydrous conditions; moderately irritating to skin and mucous membranes.
The chemical formula of this material with bluish light gray ZnCl2, is a metal which is brittle white crystalline solid. Spilled although hard and brittle. Having a boiling temperature of water easily çözünür.düşük makes widespread use of these substances. This value is pyro metallurgical especially in metal production is a very decisive factor. The world, in terms of the amount of iron use a year, aluminum, and comes after copper. available sources of zinc containing 48% zinc in the structure and in particular the local blood breaker.
Molecular Structure
Cl - Zn - Cl
Production and Reactions
Solid reaction of zinc with hydrochloric acid produced so as to be exposed hydrogen gas.
Zn (s) + 2HCl ---- ZnCl2 + H2
Zinc chloride is the name of chemical compounds with the formula ZnCl2 and its hydrates. Zinc chlorides, of which nine crystalline forms are known, are colorless or white, and are highly soluble in water.ZnCl2 itself is hygroscopic and even deliquescent. Samples should therefore be protected from sources of moisture, including the water vapor present in ambient air. Zinc chloride finds wide application in textile processing, metallurgical fluxes, and chemical synthesis. No mineral with this chemical composition is known aside from the very rare mineral simonkolleite.
Zinc chloride chemical formula is ZnCl2 and its molar mass is 136.15 g mol-1. The zinc chloride molecule is a binary salt formed by the zinc cation Zn+2 and chloride anion Cl- and it can be found as anhydrous or tetrahydrated form. The structure may be tetrahedral or orthorhombic depended on the hydration state. Its chemical structure can be written as below, in the common representations used for organic molecules.Zinc chloride is a white hygroscopic crystalline solid. Its density is 1.01 g mL-1. Zinc chloride melting point is 162-172 ºC and its boiling point is 220 ºC. It is soluble in water, ethanol, glycerol and acetone. Zinc chloride is mostly thought as a ionic compound, however it has been determinate it has a behavior more covalent. The difference of electro-negativity between Zinc and Chloride is 1.3, which is not enough to form a strong ionic bond. For that reason the melting point (energy required to break the bonds) is lower than ionic salts as sodium chloride. The zinc chloride can react in diverse ways, all of them are similar to the reaction showed by the covalent compounds, for example: the formation of complex with water molecule or in the presence of alkali solution when are formed complex species.
Zinc chloride (ZnCl2) is an important compound and it is exists in its nine crystalline forms which are either colorless or white. It is actually a granular powder which we get by heating calcium chloride and zinc sulfate together. It has a specific gravity of 2.75, a pH of 4 and a burning taste. The anhydrous zinc chloride which is white is known for its solubility in water. This compound, which is deliquescent has several applications and the main uses include chemical synthesis and textile processing.
All those who use this compound should be aware of the safety measures which are to be followed for its daily use. Experts suggest that it should be kept in air tight containers and stored in cool and dry place. Also, while you use this chemical, you should use protective rubber gloves and goggles for your personal safety.
Zinc Chloride is a chemical compound that is constituted of zinc and chlorine. It is a granular crystalline powder that is also highly hygroscopic in nature. It is soluble in many mediums, like water, alcohol, glycerol, and ether.Zinc Chloride has numerous applications in different industries, including health care, pharmaceuticals, and paper manufacturing industry. It is also used in the chemical products formulation and manufacturing industry too.
Zinc chloride is a crystalline, hydroscopic powder of white or slightly greyish colour. The substance is odourless, well soluble in water, in alcohols, ether, glycerine and acetone. This high quality product can be made in anhydrous form (i.e. free flowing) or in solution at a concentration of at least 45 %.
Zinc Chloride is a white crystalline solid. In cosmetics and personal care products, Zinc Chloride is used in the formulation of dentifrices, mouthwashes, skin care products, hair conditioners and bath products.Zinc Chloride polishes the teeth, reduces oral odor, or otherwise cleanses or deodorizes the teeth and mouth. It is also applied topically for use in properly caring for the oral cavity. Zinc Chloride induces a tightening or tingling sensation of the skin and helps to cleanse the skin or to prevent odor by destroying or inhibiting the growth of microorganisms.
While the use of triphenylphosphine as a reductant is common in organic synthesis, the resulting triphenylphosphine oxide (TPPO) waste can be difficult to separate from the reaction product. While a number of strategies to precipitate TPPO are available, none have been reported to work in more polar solvents. We report here that mixing ZnCl2 with TPPO precipitates a TPPO–Zn complex in high yield in several common polar organic solvents. The solvent compatibility of this procedure and the reliability of the precipitation in the presence of polar functional groups were examined to show the utility and limitations of this method.
Zinc Chloride is also used by various chemical industries: for example, for making nylon, for the vulcanisation of cellulose fibres in paper making, for water treatment, for pharmaceuticals, and for surface treatment.It is also used as raw material for the production of other Zinc salts, for PVC and Calcium-Zinc stabilizers in particular.The zinc salt of hydrochloric acid, ZnCl2, a white crystalline solid with a number of industrial applications.
Zinc Chloride is an excellent water soluble crystalline Zinc source for uses compatible with chlorides. Chloride compounds can conduct electricity when fused or dissolved in water. Chloride materials can be decomposed by electrolysis to chlorine gas and the metal. They are formed through various chlorination processes whereby at least one chlorine anion (Cl-) is covalently bonded to the relevant metal or cation. Ultra high purity and proprietary formulations can be prepared. The chloride ion controls fluid equilibrium and pH levels in metabolic systems. They can form either inorganic or organic compounds. Zinc Chloride is generally immediately available in most volumes. High purity, submicron and nanopowder forms may be considered. We also produce Zinc Chloride Solution. American Elements produces to many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information is available as is a Reference Calculator for converting relevant units of measurement.
Intraperitoneal administration of zinc chloride (ZnCl2) to Swiss albino mice in vivo induced a significant (p≤0.05) increase in the frequencies of chromosomal aberrations of the bone-marrow cells at all concentrations used following acute (7.5, 10, 15 mg/kg body weight) and chronic (2.0, 3.0 mg/kg body wt) treatment. The degree of clastogenicity was directly proportional to the concentrations (p≤0.05, trend test) and indirectly to the period of treatment (p≤0.05, ANOVA test). It induced a dose-dependent, statistically significant increase (Mann-Whitney U statistics, student'st-test) in sperm-head abnormalities. The data designate ZnCl2 as a potent clastogen and as a toxic chemical at the concentrations used.
In its aqueous state, such as in a mouthwash, zinc chloride neutralizes the odor caused by bad breath germs for long-lasting fresh breath. It also works by controlling the growth of bad breath bacteria. It is also used in other temporary breath fresheners such as mints, sprays, lozenges and even chewing gum.
When zinc is burned in chlorine a solid substance is formed of a whitish gray colour, and semi-transparent. This is the only compound known of zinc and chlorine. It may likewise be made by heating together zinc filings and corrosive sublimate; it is as soft as wax, fuses at a temperature a little above 212 degrees, and rises in the gaseous form as heat much below the red heat. Its taste is acrid, and it corrodes the skin; it acts upon water and dissolves in it, producing much heat, and its solution decomposed by an alkali affords the white hydrated oxide of zinc. The compound of zinc and chlorine has been called butter of zinc and muriate of zinc; following the nomenclature already proposed its name will be zincane; from the experiments of my brother, Dr. John Davy, it consists of nearly equal parts of zinc and chlorine
In a simple and convenient way, mesoporous germanium nanoparticles (mp-Ge NPs) are prepared by a “metathesis” reaction of magnesium germanide (Mg2Ge) and zinc chloride (ZnCl2) in an autoclave at 300 °C. Investigated as anode materials for lithium-ion batteries, the prepared mp-Ge NPs exhibit a high capacity retention of 1048 mA h g−1 at 1 C after 1000 cycles and a high rate capacity of 727.1 mA h g−1 at 10 C in Li–Ge half cells. Additionally, a 3.4 V lithium-ion full cell (Ge-LiCoO2) with an energy retention of 85% (∼268.8 W h kg−1) over 100 cycles is achieved.
Also known as zinc dichloride or zinc (II) chloride, this chemical compound appears in nine different forms, all of them crystalline and either colorless or white. Its appearance in nature is very rare.Zinc chloride has a simple molecular formula consisting of a single zinc atom in an ionic bond with two chlorine atoms. However, this apparently simple arrangement can manifest various symmetries, such as tetragonal, monoclinic and orthorhombic forms.This compound is excellent for attacking most metal oxides. Therefore, it is used to clean metal surfaces. Mouthwash companies also make use of this substance as an active ingredient. However, it is corrosive and should only be used when it is possible to clean it off completely.Since this compound is an irritant on the skin and in the human respiratory system, users must take great care with it. It acts as an acid in concentrated form.
Fixation with zinc chloride is probably similar to that with mercuric chloride, They are both group 12 elements in the periodic table, along with cadmium, but the mechanism does not appear to have been commented on apart from that.
It had been recommended long ago as a fixing agent, but was not popular. Most likely this was because it is inferior to mercuric chloride and microscopists preferred the results from using that. Recently, however, as mercuric chloride began to be criticised as a fixing agent because of its toxicity and the effect of disposal on the environment, a search for possible substitutes led to zinc chloride which, it was claimed at first, was as good as the former and a lot less toxic. It is true that it is a lot less toxic, but it does not live up to the claims initially made in its favour. It is a good fixing agent but it falls short of what has been claimed for it. What is needed is a thorough, objective evaluation of its fixation characteristics so that some definitive information is available.
Physicians, military and civilian alike, may be called upon to recognize, treat, and provide long-term care to patients who have suffered a zinc chloride (smoke bomb) inhalational injury. Pathologic changes described in the literature include laryngeal, tracheal, and bronchial mucosal edema and ulceration; interstitial edema; interstitial fibrosis; alveolar obliteration; and bronchiolitis obliterans. Acute injury is associated with a high mortality. Following is a report of a patient with a zinc chloride smoke injury which resulted in subpleural emphysematous blebs complicated by pneumothorax and abnormal exercise physiology. Gradual recovery occurred over several months. However, the chest roentgenogram remains abnormal with emphysematous blebs.
White deliquescent granules or fused pieces. Zinc chloride acts an astringent and antiseptic and has been used to deodorize, disinfect, and embalm specimens. It is used on wood for preservation and fireproofing. With metals, zinc chloride can act as a flux, etchant, cement, and colorant. For textiles, it has been used to mercerize cotton, weight fabrics, mordant dyes, and vulcanize rubber. It is also used in the manufacture of artificial silk, dyes, cold-water glue, and magnesia cements. As a microscopy reagent, zinc chloride is used to separate silk, wool, and plant fibers
APPLICATIONS
·Organic product synthesis - Synthesis of organic products in the laboratory, mainly as a moderate strength Lewis acid reaction, and several other reactions.
·Textile processing industry - 64% zinc chloride in water is used to dissolve starch, silk, and cellulose. It has many other applications in textile processing industry.
·Dry cell: It is used in dry cell batteries as an electrolyte.
·Petroleum: It is a powerful emulsion breaker. It separates oil from water
·Chemical industryit is used to prepare ethyl acetate. It is also used in the manufacturing of dyes, and many other industrial intermediate chemicals.
·Medicine: It located in the composition of some ointment that can be sold without a prescription.
·Health: It is also used in the treatment of very small amounts will come out of the skin using the redness and irritation of connecting glands önlemektedir.bebek önleyebilir.göz disease in the dehydrated skin when applied as a thin layer.
·Rubber:In the rubber industry it is used as activator.
·Textile: This sector is used as a mordant in textile dyeing.
·Chemistry: water is used in chemical synthesis as attractive.
·Battery: Batteries are used as components in the construction of housing help.
·Other: As a disinfectant and deodorizer; In the protection of phenols alone or in combination with other antiseptics and railway sleepers; ammonium chloride as fluxing solder work together; parchment paper, rayon, rubber vulcanization, galvanization process is used in the purification of mercerized cotton oil.
Zinc (Latin: Zinke I, English: Zinc German: Zink), bluish light gray, brittle metal. The periodic table of elements located in the switch element group. Low boiling point is remarkable. This value is a decisive factor, especially in pyrometallurgical metal production. Spilled although hard and brittle. It may be formed at 120 ° C. In the electrochemical series potential it is more negative than iron. Thus, the zinc anode cathodic find significant use in corrosion protection. Galvanizing is one such application.
• In order to protect against corrosion in the galvanizing other metals such as steel,
• Brass, nickel silver, various solders, in making alloys such as nickel silver,
• Generally, in casting molds in the automotive industry,
• The batteries in the construction of housing,
• Zinc chloride, and wood preservatives in deodorants,
• zinc sulfide, and the hands in the dark hours as glowing pigment,
• Zinc methyl (Zn (CH3) 2) in the synthesis of many organic substances,
• The deodorizing and disinfecting; In the protection of phenols alone or in combination with other antiseptics and railway sleepers;
• In the wood protection against fire;
• Parchment paper, artificial silk, activated charcoal, in the construction of cold glue
•transmetallation of organomagnesium and organolithium compounds to the corresponding zinc reagents for C-C coupling reactions (Negishi protocol).
•formation of zinc enolates by deprotonation of carbonyl compounds using standard bases followed by transmetallation with ZnCl2.
•catalysis of cycloaddition reactions e.g. Diels-Alder reactions of electron rich dienes with carbonyl compounds.
•preparation of selective reducing agents, e.g. Zn(BH4)2 by reaction of NaBH4 with ZnCl2 in THF.
ÖZELLİKLERİ
-Fiziksel Veriler: mp 293 ° C; bp 732 ° C; d 2.907 g mL − 1.
-Çözünürlük: Sol H20 (25 ° C'de 432 g / 100 g), EtOH (1 g / 1.3 mL), gliserol (1 g / 2 mL).
-Form Verilen: beyaz, kokusuz, çok deli granül; ana kirlilikler H2O ve çinko oksiklorürdür.
-Reaktif Saflık Analizi: Erime noktası
-Zn0 toz varlığında dioksan (400 mL) içinde refluks (50 g), daha sonra sıcak filtre ve arıtılmış ZnCl2 çökeltmek için soğumaya bırakın. Ayrıca, susuz malzeme bir kuru HC1 akışı altında süblimasyona tabi tutulabilir, ardından bir kuru N2 akımında 400 ° C'ye ısıtılabilir.
-Handling, Depolama ve Önlemler: çok higroskopik; susuz koşullarda saklamak; cilt ve mukoza zarlarını orta derecede tahriş eder.
Bu materyalin mavimsi açık gri ZnCl2 ile kimyasal formülü, kırılgan beyaz kristalin katı bir metaldir. Dökülen sert ve kırılgan. Kaynayan bir su kaynama noktasi kolayca dusunmez. Bu maddelerin yaygin kullanilmasini saglar. Bu değer özellikle metal üretiminde piro metalurjiktir, çok belirleyici bir faktördür. Dünyada, bir yılda demir kullanımı miktarı, alüminyum ve bakırdan sonra gelir. yapıda ve özellikle lokal kan kesicide% 48 çinko içeren mevcut çinko kaynakları.
Moleküler yapı
Cl - Zn - Cl
Üretim ve Tepkimeler
Çinko hidroklorik asitle reaksiyona girerek hidrojen gazı açığa çıkar.
Zn (s) + 2HCl ---- ZnCl2 + H2
Çinko klorür, ZnCl2 formülü ve hidratları ile kimyasal bileşiklerin adıdır. Dokuz kristalin formunun bilindiği çinko klorürler renksiz veya beyazdır ve suda çok çözünürler. ZnCl2'nin kendisi higroskopik ve hatta kesindir. Bu nedenle numuneler, ortam havasında bulunan su buharı da dahil olmak üzere nem kaynaklarından korunmalıdır. Çinko klorür, tekstil işleme, metalurjik akışkanlar ve kimyasal sentezlerde geniş bir uygulama alanı bulur. Bu kimyasal bileşime sahip hiçbir mineral, çok nadir mineral simonkolleitinden bilinmemektedir.
Çinko klorür kimyasal formülü ZnCl2'dir ve molar kütlesi 136.15 g mol-1'dir. Çinko klorür molekülü, Zn + 2 ve klorür anyonu Cl- ile oluşturulan ikili bir tuz olup, susuz veya tetrahidlenmiş formda bulunabilir. Yapı, hidrasyon durumuna bağlı olarak tetrahedral veya ortorombik olabilir. Kimyasal yapısı, aşağıdaki gibi, organik moleküller için kullanılan ortak sunumlarda yazılabilir.Zinc klorür, beyaz higroskopik kristal bir katıdır. Yoğunluğu 1.01 g mL-1'dir. Çinko klorür erime noktası 162-172 ºC'dir ve kaynama noktası 220 ºC'dir. Su, etanol, gliserol ve asetonda çözünür. Çinko klorür çoğunlukla iyonik bir bileşik olarak düşünülür, ancak daha kovalent bir davranışa sahip olduğu belirlenmiştir. Çinko ve Klorür arasındaki elektro-negatifliğin farkı, güçlü iyonik bağ oluşturmak için yeterli olmayan 1.3'dür. Bu nedenle erime noktası (bağları kırmak için gereken enerji) sodyum klorür gibi iyonik tuzlardan daha düşüktür. Çinko klorür çeşitli yollarla reaksiyona girebilir, hepsi kovalent bileşikler tarafından gösterilen reaksiyona benzerdir, örneğin: kompleks moleküller oluşturulduğunda su molekülü veya alkali çözeltisinin varlığında kompleks oluşumu.
Çinko klorür (ZnCl2) önemli bir bileşiktir ve renksiz veya beyaz olan dokuz kristal formunda bulunur. Aslında kalsiyum klorür ve çinko sülfatın birlikte ısıtılmasıyla elde edilen granül bir tozdur. 2.75 özgül ağırlığı, pH değeri 4 ve yanan tadı vardır. Beyaz olan susuz çinko klorür, suda çözünürlüğü için bilinir. Şarküteri olan bu bileşiğin çeşitli uygulamaları vardır ve ana kullanımları arasında kimyasal sentez ve tekstil işleme yer alır.
Bu bileşiği kullananların tümü, günlük kullanımı için izlenecek güvenlik önlemlerinin farkında olmalıdır. Uzmanlar, hava geçirmez kaplarda tutulmasını ve serin ve kuru yerde saklanmasını önermektedir. Ayrıca, bu kimyasal maddeyi kullanırken, kişisel güvenliğiniz için koruyucu lastik eldiven ve gözlük kullanmalısınız.
Çinko Klorür, çinko ve klorden oluşan kimyasal bir bileşiktir. Doğada oldukça higroskopik olan granüler kristal bir tozdur. Su, alkol, gliserol ve eter gibi birçok ortamda çözünür. Zink Chloride, sağlık, eczacılık ve kağıt imalat endüstrisi dahil olmak üzere farklı endüstrilerde çok sayıda uygulamaya sahiptir. Aynı zamanda kimyasal ürün formülasyonu ve imalat sanayinde de kullanılmaktadır.
Çinko klorür beyaz veya hafif grimsi renkli kristalin, hidroskopik bir tozdur. Madde kokusuzdur, suda iyi çözünür, alkol, eter, gliserin ve asetonda bulunur. Bu yüksek kaliteli ürün susuz formda (yani serbest akışlı) veya solüsyonda en az% 45'lik bir konsantrasyonda yapılabilir.
Çinko Klorür beyaz kristal bir katıdır. Kozmetik ve kişisel bakım ürünlerinde, Çinko Klorür, diş bakım ürünleri, ağız gargaraları, cilt bakım ürünleri, saç kremleri ve banyo ürünlerinin formüle edilmesinde kullanılır. Zink Chloride dişleri parlatır, ağız kokusunu azaltır veya dişleri ve ağzı temizler veya deodorize eder. Aynı zamanda ağız boşluğu için uygun bakımda kullanılmak üzere topikal olarak uygulanır. Çinko Klorür cildin sıkılaşan veya karıncalanma hissini uyandırır ve mikroorganizmaların büyümesini yok ederek veya engelleyerek cildi temizlemeye veya kokuyu önlemeye yardımcı olur.
Organik sentezde trifenilfosfinin bir indirgeyici olarak kullanılması yaygın olmasına rağmen, ortaya çıkan trifenilfosfin oksit (TPPO) atığının reaksiyon ürününden ayrılması zor olabilir. TPPO'yu çökeltmek için bir takım stratejiler mevcut olmasına rağmen, hiçbiri daha polar çözücülerde çalışılmadığı bildirilmiştir. Burada ZnCl2'nin TPPO ile karıştırılmasının bir çok yaygın polar organik çözücü içinde yüksek verimde bir TPPO-Zn kompleksi çökeltiğini bildiriyoruz. Bu yöntemin çözücü uyumluluğu ve polar fonksiyonel grupların varlığında çökelme güvenilirliği, bu yöntemin fayda ve sınırlarını gösterecek şekilde incelendi.
Çinko Klorür ayrıca çeşitli kimyasal endüstriler tarafından da kullanılır: örneğin, naylon yapımında, kağıt yapımında selüloz liflerinin vulkanizasyonu, su arıtma, ilaç ve yüzey işlemleri için kullanılır. Özellikle PVC ve Kalsiyum-Çinko stabilizatörleri için diğer çinko tuzları. Hidroklorik asitin çinko tuzu, ZnCl2, bir dizi endüstriyel uygulama ile beyaz kristal bir katı.
Çinko Klorür, klorürlerle uyumlu kullanım için mükemmel bir suda çözünür kristal Çinko kaynağıdır. Klorür bileşikleri, su içinde kaynaştığında veya çözündüklerinde elektrik yapabilirler. Klorür materyalleri elektrolizle klor gazına ve metale ayrılabilir. En az bir klor anyonunun (Cl-) ilgili metal veya katyona kovalent olarak bağlandığı çeşitli klorinasyon işlemleriyle oluşturulurlar. Ultra yüksek saflık ve tescilli formülasyonlar hazırlanabilir. Klorür iyonu metabolik sistemlerde sıvı dengesini ve pH seviyelerini kontrol eder. İnorganik veya organik bileşikler oluşturabilirler. Çinko Klorür genellikle çoğu ciltte hemen mevcuttur. Yüksek saflık, mikron altı ve nanopowder formları düşünülebilir. Ayrıca Çinko Klorür Çözeltisi üretiyoruz. American Elements, Mil Spec (askeri sınıf) dahil olmak üzere, uygulanabilir olduğunda birçok standart kaliteye; ACS, Reaktif ve Teknik Sınıf; Gıda, Tarım ve İlaç Sınıfı; Optik Sınıf, USP ve EP / BP (Avrupa Farmakopesi / İngiliz Farmakopesi) ve geçerli ASTM test standartlarını takip eder. Tipik ve özel ambalajlar mevcuttur. Ek teknik, araştırma ve güvenlik (MSDS) bilgileri, ilgili ölçüm birimlerini dönüştürmek için bir Referans Hesaplayıcı olarak mevcuttur.
Çinko klorürün (ZnCl2), in vivo olarak İsviçre albino farelerine intraperitonal uygulanması, akut (7.5, 10, 15 mg / kg) takiben kullanılan tüm konsantrasyonlarda kemik iliği hücrelerinin kromozomal anormallikleri frekanslarında anlamlı (p <0.05) bir artışa neden oldu. vücut ağırlığı) ve kronik (2.0, 3.0 mg / kg vücut ağırlığı) tedavisi. Klastojenisitenin derecesi, konsantrasyonlarla (p = 0.05, trend testi) ve dolaylı olarak tedavi periyodu ile doğru orantılıydı (p≤0.05, ANOVA testi). Sperm baş anormalliklerinde doz bağımlı, istatistiksel olarak anlamlı bir artış (Mann-Whitney U istatistikleri, student'st-test) indüklemiştir. Veriler, ZnCl2'yi güçlü bir klastojen olarak ve kullanılan konsantrasyonlarda toksik bir kimyasal olarak tanımlar.
Bir gargarada olduğu gibi sulu durumunda, çinko klorür uzun süreli taze nefes için kötü nefes mikroplarının neden olduğu kokuyu etkisiz hale getirir. Ayrıca kötü nefes bakterilerinin büyümesini kontrol ederek çalışır. Aynı zamanda darphane, sprey, pastil ve hatta sakız gibi diğer geçici soluma tatlandırıcılarında da kullanılır.
Çinko klor içinde yakıldığında, katı bir madde beyazımsı gri bir renkten oluşur ve yarı saydamdır. Bu çinko ve klorun bilinen tek bileşiğidir. Aynı şekilde çinko kaplamaları ve aşındırıcı süblimasyonu birlikte ısıtmak suretiyle de yapılabilir; balmumu kadar yumuşaktır, 212 derecenin biraz üzerinde bir sıcaklıkta füzyonlar ve kırmızı ısıdan çok daha fazla ısı olarak gaz biçiminde yükselir. Tadı acur ve cildi korozyona uğratır; suyun üzerine hareket eder ve içinde erir, fazla ısı üretir ve bir alkali tarafından ayrıştırılan çözeltisi, beyaz hidratlı çinko oksitini verir. Çinko ve klorin bileşiğine çinko tereyağı ve çinko çürüğü denir; isimlendirmeyi takiben adı daha önce adı zinkan olacaktır; kardeşim Dr. John Davy'in deneylerinden, neredeyse eşit çinko ve klor parçalarından oluşuyor
Basit ve elverişli bir şekilde, mezogözenekli germanyum nanoparçacıkları (mp-Ge NP'ler), 300 ° C'de bir otoklavda magnezyum germanid (Mg2Ge) ve çinko klorürün (ZnCl2) bir "metatez" reaksiyonu ile hazırlanır. Lityum-iyon aküler için anot malzemeleri olarak araştırılmış, hazırlanan mp-Ge NP'leri 1000 döngüden sonra 1 C'de 1048 mA hg-1 yüksek kapasite tutma ve Li içinde 10 C'de yüksek bir 727,1 mA hg-1 kapasite sergilemektedir. Ge yarım hücreler. Ek olarak, 100 devir üzerinde% 85'lik (∼268.8 Ws kg-1) bir enerji tutuşu ile bir 3,4 V lityum-iyon tam hücre (Ge-LiCoO2) elde edilir.
Çinko diklorür veya çinko (II) klorür olarak da bilinen bu kimyasal bileşik, hepsi kristalli ve renksiz veya beyaz olmak üzere dokuz farklı biçimde ortaya çıkar. Doğada görünümü çok nadirdir. Zink klorür, iki klor atomu ile iyonik bağda tek bir çinko atomundan oluşan basit bir moleküler formüle sahiptir. Bununla birlikte, bu görünüşte basit bir düzenleme, tetragonal, monoklinik ve ortorombik formlar gibi çeşitli simetriler gösterebilir. Bu bileşik, çoğu metal okside saldıran için mükemmeldir. Bu nedenle, metal yüzeylerin temizlenmesi için kullanılır. Ağız suları şirketleri de bu maddeyi aktif bir bileşen olarak kullanırlar. Ancak, aşındırıcıdır ve sadece tamamen temizlenebilir olduğunda kullanılmalıdır. Bu bileşiğin ciltte ve insan solunum sisteminde tahriş edici olması nedeniyle, kullanıcılar buna büyük özen göstermelidir. Konsantre olarak bir asit gibi davranır.
Çinko klorür ile fiksasyon muhtemelen mercurik klorür ile benzerdir, her ikisi de periyodik tabloda, kadmiyum ile birlikte grup 12 elementlerdir, ancak mekanizmanın bundan ayrı yorumlanmış gibi görünmemektedir.
Bir tamirci olarak uzun zaman önce önerilmişti, ancak popüler değildi. Muhtemelen bunun nedeni, mermik klorürden daha düşük olması ve mikroskobistlerin sonuçları kullanmasını tercih etmeleriydi. Bununla birlikte, son zamanlarda, merhem klorürün toksisitesi ve bertarafın çevre üzerindeki etkisi nedeniyle bir sabitleme maddesi olarak eleştirilmeye başlamasıyla, muhtemel ikame maddelerinin aranması, ilk başta olduğu iddia edilen çinko klorürün ortaya çıkmasına neden olmuştur. eski ve çok daha az zehirli. Çok daha az toksik olduğu doğrudur, ancak başlangıçta kendi lehine yapılan iddialara kadar yaşamaz. İyi bir sabitleme maddesidir ancak bunun için talep edilenin yetersiz kalmasıdır. İhtiyaç duyulan şey, bazı kesin bilginin mevcut olması için sabitleme özelliklerinin kapsamlı, objektif bir değerlendirmesidir.
Çinko klorürlü (duman bombası) inhalasyon yaralanmasına maruz kalan hastalara uzun süreli bakım, tanı ve tedavi için doktorlar, askeri ve sivil olarak çağrılabilirler. Literatürde tarif edilen patolojik değişiklikler arasında laringeal, trakeal ve bronşiyal mukozal ödem ve ülserasyon; interstisyel ödem; interstisyel fibroz; alveoler obliterasyon; ve bronşiyolit obliterans. Akut yaralanma, yüksek mortalite ile ilişkilidir. Aşağıda, çinko klorürlü duman yaralanması olan bir hastanın pnömotoraks ve anormal egzersiz fizyolojisi ile komplike olan subplevral amfizematöz kabarcıklara neden olduğu bildirilmiştir. Kademeli iyileşme birkaç ay içinde meydana geldi. Bununla birlikte, göğüste roentgenogram, amfizematöz blebler ile anormal kalır.
Beyaz parçalı granüller veya kaynaşmış parçalar. Çinko klorür, bir büzücü ve antiseptik etki eder ve örnekleri deodorize etmek, dezenfekte etmek ve embalmek için kullanılır. Koruma ve ateşe dayanıklılık için ahşap üzerinde kullanılır. Metaller ile, çinko klorür bir akı, erozyon, çimento ve renklendirici olarak hareket edebilir. Tekstil için pamuk, ağırlık kumaşları, mordan boyalar ve vulkanize kauçuğun merserize edilmesi için kullanılmıştır. Yapay ipek, boyalar, soğuk su tutkalı ve magnezya çimentolarının üretiminde de kullanılır. Mikroskopi reaktifi olarak, ipek, yün ve bitki liflerini ayırmak için çinko klorür kullanılır.
UYGULAMALAR
· Organik ürün sentezi - Laboratuarda organik ürünlerin sentezi, temel olarak ılımlı bir Lewis asit reaksiyonu ve diğer bazı reaksiyonlar.
· Tekstil işleme endüstrisi - nişasta, ipek ve selülozu çözmek için suda% 64 çinko klorür kullanılır. Tekstil işleme endüstrisinde birçok başka uygulamaya sahiptir.
· Kuru hücre: Kuru pil bataryalarında elektrolit olarak kullanılır.
· Petrol: Güçlü bir emülsiyon kırıcıdır. Yağı sudan ayırır
· Kimya endüstrisi etil asetat hazırlamak için kullanılır. Ayrıca boya üretiminde ve diğer birçok endüstriyel ara kimyasalda kullanılır.
· Tıp: Reçetesiz satılan bazı merhem bileşimlerinde bulunur.
· Sağlık: Aynı zamanda çok küçük miktarlarda tedaviden de yararlanılarak deriden çıkacak kızarıklık ve tahriş edici bezlerin bağlanmasını.bebek önleyebilir.göz hastalığındaki tahrişler ince bir tabaka halinde uygulandığında dehidrate ciltte.
· Kauçuk: Kauçuk endüstrisinde aktivatör olarak kullanılır.
· Tekstil: Bu sektör tekstil boyamasında mordan olarak kullanılır.
· Kimya: Kimyasal sentezde su çekici olarak kullanılır.
· Batarya: Bataryalar, konut yardımının yapımında bileşenler olarak kullanılır.
· Diğer: Dezenfektan ve koku giderici olarak; Fenollerin tek başına veya diğer antiseptikler ve demiryolu traversleri ile birlikte korunmasında; fluxing lehimi olarak amonyum klorür birlikte çalışır; merserize pamuk yağının saflaştırılmasında parşömen kağıdı, suni ipek, kauçuk vulkanizasyon, galvanizleme işlemi kullanılmaktadır.
Çinko (Latince: Zinke I, İngilizce: Çinko Alman: Zink), mavimsi açık gri, kırılgan metal. Anahtar elemanı grubunda yer alan elementlerin periyodik tablosu. Düşük kaynama noktası dikkat çekicidir. Bu değer, özellikle pirometalurjik metal üretiminde belirleyici bir faktördür. Dökülen sert ve kırılgan. 120 ° C'de oluşturulabilir. Elektrokimyasal seri potansiyelinde demirden daha negatiftir. Böylece, çinko anot katodik, korozyon korumasında önemli bir kullanım alanı bulur. Galvanizleme böyle bir uygulamadır.
• Galvanizleme sırasında çelik gibi diğer metallerde korozyona karşı koruma sağlamak için,
• Nikel gümüş gibi alaşımların yapımında pirinç, nikel gümüş, çeşitli lehimler,
• Genel olarak otomotiv endüstrisinde döküm kalıplarında,
• Gövde yapımında piller,
• Deodorantlarda çinko klorür ve ahşap koruyucular,
• çinko sülfit ve karanlık saatlerde elleri parlak pigment olarak,
• Pek çok organik maddenin sentezinde Çinko metil (Zn (CH3) 2),
• Koku giderme ve dezenfekte etme; Fenollerin tek başına veya diğer antiseptikler ve demiryolu traversleri ile birlikte korunmasında;
• Yangına karşı odun korumasında;
• Parşömen kağıdı, suni ipek, aktif kömür, soğuk tutkal yapımında
• Organomagnezyum ve organolityum bileşiklerinin C-C bağlanma reaksiyonları için karşılık gelen çinko reaktiflerine transmetalasyonu (Negishi protokolü).
Zinc chloride is the name of chemical compounds with the formula ZnCl2 and its hydrates. Zinc chlorides, of which nine crystalline forms are known, are colorless or white, and are
highly soluble in water. ZnCl2 itself is hygroscopic and even deliquescent. Samples should therefore be protected from sources of moisture, including the water
vapor present in ambient air. Zinc chloride finds wide application in textile processing, metallurgical fluxes, and chemical synthesis. No mineral with this chemical composition
is known aside from the very rare mineral simonkolleite, Zn5(OH)8Cl2·H2O.
IUPAC name : Zinc chloride
Other names :
Zinc(II) chloride
Zinc dichloride
Butter of zinc
Anhydrous ZnCl2 can be prepared from zinc and hydrogen chloride:
Zn(s) + 2 HCl → ZnCl2 + H2(g)
Hydrated forms and aqueous solutions may be readily prepared similarly by treating Zn metal with hydrochloric acid. Zinc oxide and zinc sulfide react with HCl:
ZnS(s) + 2 HCl(aq) → ZnCl2(aq) + H2S(g)
Unlike many other elements, zinc essentially exists in only one oxidation state, 2+, which simplifies purification of the chloride.
Commercial samples of zinc chloride typically contain water and products from hydrolysis as impurities. Such samples may be purified by recrystallization from hot dioxane.
Anhydrous samples can be purified by sublimation in a stream of hydrogen chloride gas, followed by heating the sublimate to 400 °C in a stream of dry nitrogen gas. Finally, the
simplest method relies on treating the zinc chloride with thionyl chloride.
Reactions
Molten anhydrous ZnCl2 at 500–700 °C dissolves zinc metal, and, on rapid cooling of the melt, a yellow diamagnetic glass is formed, which Raman studies indicate contains the Zn2+
2 ion.
A number of salts containing the tetrachlorozincate anion, ZnCl2−4, are known. "Caulton's reagent", V2Cl3(thf)6Zn2Cl6 is an example of a salt containing Zn2Cl2−6. The compound
Cs3ZnCl5 contains tetrahedral ZnCl2−4 and Cl− anions.No compounds containing the ZnCl4−6 ion have been characterized.
Whilst zinc chloride is very soluble in water, solutions cannot be considered to contain simply solvated Zn2+ ions and Cl− ions, ZnClxH2O(4−x) species are also present.
Aqueous solutions of ZnCl2 are acidic: a 6 M aqueous solution has a pH of 1.[14] The acidity of aqueous ZnCl2 solutions relative to solutions of other Zn2+ salts is due to the
formation of the tetrahedral chloro aqua complexes where the reduction in coordination number from 6 to 4 further reduces the strength of the O–H bonds in the solvated water molecules.
In alkali solution in the presence of OH− ion various zinc hydroxychloride anions are present in solution, e.g. Zn(OH)3Cl2−, Zn(OH)2Cl2−2, ZnOHCl2−3, and Zn5(OH)8Cl2·H2O (simonkolleite) precipitates.[22]
When ammonia is bubbled through a solution of zinc chloride, the hydroxide does not precipitate, instead compounds containing complexed ammonia (ammines) are produced, Zn(NH3)4Cl2·H2O
and on concentration ZnCl2(NH3)2.[23] The former contains the Zn(NH3)62+ ion [4], and the latter is molecular with a distorted tetrahedral geometry.[24] The species in aqueous solution
have been investigated and show that Zn(NH3)42+ is the main species present with Zn(NH3)3Cl+ also present at lower NH3:Zn ratio.
Aqueous zinc chloride reacts with zinc oxide to form an amorphous cement that was first investigated in the 1855 by Stanislas Sorel. Sorel later went on to investigate the related
magnesium oxychloride cement, which bears his name.When hydrated zinc chloride is heated, one obtains a residue of Zn(OH)Cl e.g.
ZnCl2·2H2O → ZnCl(OH) + HCl + H2O
The compound ZnCl2·1⁄2HCl·H2O may be prepared by careful precipitation from a solution of ZnCl2 acidified with HCl. It contains a polymeric anion (Zn2Cl5−)n with balancing monohydrated
hydronium ions, H5O2+ ions.The formation of highly reactive anhydrous HCl gas formed when zinc chloride hydrates are heated is the basis of qualitative inorganic spot tests.
The use of zinc chloride as a flux, sometimes in a mixture with ammonium chloride (see also Zinc ammonium chloride), involves the production of HCl and its subsequent reaction with
surface oxides. Zinc chloride forms two salts with ammonium chloride: (NH4)2ZnCl4 and (NH4)3ClZnCl4, which decompose on heating liberating HCl, just as zinc chloride hydrate does.
The action of zinc chloride/ammonium chloride fluxes, for example, in the hot-dip galvanizing process produces H2 gas and ammonia fumes.
Cellulose dissolves in aqueous solutions of ZnCl2, and zinc-cellulose complexes have been detected.Cellulose also dissolves in molten ZnCl2 hydrate and carboxylation and acetylation
performed on the cellulose polymer.
Thus, although many zinc salts have different formulas and different crystal structures, these salts behave very similarly in aqueous solution. For example, solutions prepared from any
of the polymorphs of ZnCl2, as well as other halides (bromide, iodide), and the sulfate can often be used interchangeably for the preparation of other zinc compounds. Illustrative is
the preparation of zinc carbonate:
ZnCl2(aq) + Na2CO3(aq) → ZnCO3(s) + 2 NaCl(aq)
Applications
As a metallurgical flux
Zinc chloride has the ability to react with metal oxides (MO) to give derivatives of the formula MZnOCl2.[additional citation(s) needed] This reaction is relevant to the utility of
ZnCl2 solution as a flux for soldering — it dissolves oxide coatings, exposing the clean metal surface.[33] Fluxes with ZnCl2 as an active ingredient are sometimes called
"tinner's fluid". Typically this flux was prepared by dissolving zinc foil in dilute hydrochloric acid until the liquid ceased to evolve hydrogen; for this reason, such flux was
once known as "killed spirits". Because of its corrosive nature, this flux is not suitable for situations where any residue cannot be cleaned away, such as electronic work.
This property also leads to its use in the manufacture of magnesia cements for dental fillings and certain mouthwashes as an active ingredient.
In organic synthesis
An early use of zinc chloride (Silzic) was in building carbon skeletons by condensation of methanol molecules. Unsaturated hydrocarbons are the major products, with reaction conditions
influencing the distribution of products, though some aromatic compounds were formed.[34] In 1880, it was found that molten zinc chloride catalyses an aromatization reaction generating
hexamethylbenzene. At the melting point of ZnCl2 (283 °C), the reaction has a ΔG = −1090 kJ/mol and can be idealised as
15 CH3OH → C6(CH3)6 + 3 CH4 + 15 H2O
The discoverers of this reaction rationalized it as involving condensation of methylene units followed by complete Friedel-Crafts methylation of the resulting benzene ring with
chloromethane generated in situ.Such an alkylation transformation is an application of zinc chloride's moderate strength as a Lewis acid, which is its principal role in
laboratory synthesis. Other examples include catalyzing (A) the Fischer indole synthesis,and also (B) Friedel-Crafts acylation reactions involving activated aromatic rings.
Related to the latter is the classical preparation of the dye fluorescein from phthalic anhydride and resorcinol, which involves a Friedel-Crafts acylation.
This transformation has in fact been accomplished using even the hydrated ZnCl2 sample shown.
Hydrochloric acid alone reacts poorly with primary alcohols and secondary alcohols, but a combination of HCl with ZnCl2 (known together as the "Lucas reagent") is effective for
the preparation of alkyl chlorides. Typical reactions are conducted at 130 °C. This reaction probably proceeds via an SN2 mechanism with primary alcohols but SN1 pathway with
secondary alcohols.
Zinc chloride also activates benzylic and allylic halides towards substitution by weak nucleophiles such as alkenes:In similar fashion, ZnCl2 promotes selective NaBH3CN reduction of tertiary, allylic or benzylic halides to the corresponding hydrocarbons.
Zinc chloride is also a useful starting reagent for the synthesis of many organozinc reagents, such as those used in the palladium catalyzed Negishi coupling with aryl halides or vinyl
halides.In such cases the organozinc compound is usually prepared by transmetallation from an organolithium or a Grignard reagent, for example:Zinc enolates, prepared from alkali metal
enolates and ZnCl2, provide control of stereochemistry in aldol condensation reactions due to chelation on to the zinc. In the example shown below, the threo product was favored over
the erythro by a factor of 5:1 when ZnCl2 in DME/ether was used.The chelate is more stable when the bulky phenyl group is pseudo-equatorial rather than pseudo-axial, i.e., threo
rather than erythro.
In textile and paper processing
Concentrated aqueous solutions of zinc chloride (more than 64% weight/weight zinc chloride in water) have the interesting property of dissolving starch, silk, and cellulose.
Thus, such solutions cannot be filtered through standard filter papers. Relevant to its affinity for these materials, ZnCl2 is used as a fireproofing agent and in fabric "refresheners"
such as Febreze. Vulcanized fibre is made by soaking paper in concentrated zinc chloride.
Smoke grenades
The zinc chloride smoke mixture ("HC") used in smoke grenades contains zinc oxide, hexachloroethane and granular aluminium powder, which, when ignited, react to form zinc
chloride, carbon and aluminium oxide smoke, an effective smoke screen.
Fingerprint detection
Ninhydrin reacts with amino acids and amines to form a colored compound "Ruhemann's purple" (RP). Spraying with a zinc chloride solution forms a 1:1 complex RP:ZnCl(H2O)2, which is
more readily detected as it fluoresces better than Ruhemann's purple.
Disinfectant
Historically, a dilute aqueous solution of zinc chloride was used as a disinfectant under the name "Burnett's Disinfecting Fluid". [45] It is also used in some commercial brands of
antiseptic mouthwash.
Skin cancer treatment
Zinc chloride has been used in alternative medicine to cause eschars, scabs of dead tissue, in an attempt to cure skin cancers.[46] Various products, such as Cansema or "black salve",
containing zinc chloride and sold as cancer cures have been listed by the U.S. Food and Drug Administration (FDA) as fake [47] with warning letters being sent to suppliers.
Numerous reports in medical literature describe serious scarring and damage to normal skin by escharotic substances. Given these side-effects, its use in treatment is not warranted as there are much safer and more effective alternatives, such as radiation therapy and Mohs surgery.[49][50]
Safety
Zinc chloride is a skin irritant. After contact of the skin, immediate removal is necessary using soap and plenty of water. After contact of the eyes, adequate measures are rinsing with plenty of water or other eye rinse and contacting an ophthalmologist as soon as possible.[51]
Zinc chloride is caustic to the gastrointestinal tract, occasionally leading to hematemesis. Symptoms of acute intoxication are gastrointestinal distress, diarrhea, nausea, and abdominal pain. Vomiting occurs almost universally. The lethal dose in humans is 3–5 g.[citation needed] Decontamination of the gastrointestinal tract after oral uptake of zinc compounds is mostly unnecessary, since patients usually vomit sufficiently. Milk may be administered to decrease absorption of the metal. Zinc levels may be normalized with EDTA salts.[51]
Zinc chloride is extremely detrimental to the lungs, and pulmonary exposure to zinc chloride smoke has previously resulted in fatalities.Inhalation of fumes of zinc, zinc oxide, or zinc
chloride leads to pulmonary edema and metal fume fever. Onset occurs within 4–6 h and may be delayed up to 8 h. Symptoms include rapid breathing, dyspnea, cough, fever, shivering,
sweating, chest and leg pain, myalgias, fatigue, metallic taste, salivation, thirst, and leukocytosis, which can last from 24 to 48 h. In cases of fume inhalation, cortisone preparations
should be applied immediately (e.g., by inhalation of Auxiloson) to avoid development of lung edema.
zinc chloride
Zinc dichloride
Butter of zinc
Zinc(II) chloride
Zinc butter
Zinc chloride (ZnCl2)
Zinkchloride
Zintrace
Zinc chloride fume
Zine dichloride
Zinc chloride, (solution)
Zinc (chlorure de)
Zinco (cloruro di)
Zinkchlorid [German]
Zinkchloride [Dutch]
Caswell No. 910
Zinc chloride, solution
MFCD00011295
Chlorure de zinc [French]
Zinc (chlorure de) [French]
CCRIS 3509
Zinco (cloruro di) [Italian]
HSDB 1050
EINECS 231-592-0
UN1840
UN2331
EPA Pesticide Chemical Code 087801
NSC 529648
AI3-04470
Zinc Chloride Solution Anhydrous
Zinc chloride, 98+%, extra pure
Zinc chloride, 97+%, ACS reagent
Zinc chloride, 98.5%, for analysis
Zinc chloride, 0.7M solution in THF, AcroSeal(R)
Zinc chloride, 2M solution in 2-MeTHF, AcroSeal(R)
Zinc chloride, 99.99%, (trace metal basis), anhydrous
Zinc chloride, 99.99%, (trace metal basis), extra pure
Zinc chloride, 1.0M solution in diethyl ether, AcroSeal(R)
Zinc chloride 0.1 M solution
Zinc chloride (TN)
Zinc muriate, solution
Zinc chloride [USP:JAN]
DSSTox_CID_15013
DSSTox_RID_79237
WLN: ZN G2
Zinc chloride [USAN:JAN]
DSSTox_GSID_35013
Zinc chloride (JP17/USP)
Zinc chloride, LR, >=97%
Zinc chloride, p.a., 97.0%
Zinc chloride in plastic container
Tox21_301492
Zinc chloride, for molecular biology
AKOS016017250
Zinc chloride, ACS reagent, >=97%
LS-3229
NSC-529648
Zinc chloride, reagent grade, >=98%
Zinc chloride solution, 0.5 M in THF
NCGC00255612-01
BP-12589
CAS-7646-85-7
FT-0645122
Zinc chloride, 99.999% trace metals basis
Zinc chloride, SAJ first grade, >=95.0%
Zinc chloride, JIS special grade, >=98.0%
D02058
EC 231-592-0
Zinc chloride solution, 1.0 M in diethyl ether
Zinc chloride, anhydrous [UN2331] [Corrosive]
Zinc chloride, solution [UN1840] [Corrosive]
Zinc chloride, solution [UN1840] [Corrosive]
Q204714
Zinc chloride, anhydrous [UN2331] [Corrosive]
BRD-K46586998-001-01-1
Zinc chloride solution, 1.9 M in 2-methyltetrahydrofuran
Zinc chloride, BioReagent, for molecular biology, >=97.0%
Zinc chloride, anhydrous, powder, >=99.995% trace metals basis
Zinc chloride, anhydrous, free-flowing, Redi-Dri(TM), ACS reagent, >=97%
Zinc chloride, anhydrous, beads, amorphous, -10 mesh, 99.99% trace metals basis
Zinc chloride, anhydrous, beads, amorphous, -10 mesh, 99.999% trace metals basis
Zinc chloride, anhydrous, free-flowing, Redi-Dri(TM), reagent grade, >=98%
Zinc chloride, puriss. p.a., ACS reagent, reag. ISO, reag. Ph. Eur., >=98%
Zinc chloride, puriss., meets analytical specification of Ph. Eur., BP, USP, 98-100.5%
Zinc atomic spectroscopy standard concentrate 1.00 g Zn, 1.00 g/L, for 1L standard solution, analytical standard
Properties
vapor pressure 1 mmHg ( 428 °C)
assay ≥98%
mp 293 °C (lit.)
General description
Electrodeposition of zinc on glassy carbon and nickel substrates in zinc chloride-1-ethyl-3-methylimidazolium chloride molten salt is studied.[4]
Application
Zinc Chloride may be used:
• as catalyst in knoevenagel condensation of carbonyl substrates with acidic methylene reagents[3]
• in the preparation of porous carbon nanofibers, useful in the fabrication of efficient electrodes for supercapacitors[5]
• as a catalyst in preparation of poly(propylene fumarate)[6]
• in the low temperature synthesis of nanocrystalline zinc oxide films[1]
• in the synthesis of zinc oxide nanoparticles with low agglomeration. Aqueous suspensions of the nanoparticles displayed high transmittance in the visible light range, but exhibited strong absorption in the UV range.[2]
Compounds
In chemical compounds, zinc exhibits almost exclusively a +2 oxidation state. A few compounds of zinc in the +1 state have been reported, but never any compounds of zinc in the +3 state or higher.
Zinc chloride is a chemical compound whose formula is ZnCl2, with a molecular weight of 136.3 g / mol. This product is hygroscopic and deliquescent and therefore must be protected from moisture, even that contained in the atmosphere.
Applications:
One of the main applications of zinc chloride is to act as an electrolyte in dry batteries (zinc-carbon). Zinc chloride has the ability to attack the metal oxides, this property allowing its use as flux in the weld metal, dissolving the oxide layers, and leaving the metal surface clean. Zinc chloride is used in various fields such as water treatment, as a fireproofing agent in textile processing and in the manufacture of bactericides, fungicides and stabilizers for plastics.
This product can be manufactured in liquid form at any concentration up to 65% in solid form as a dry powder. The anhydrous material is packed in polyethylene valve bags of 25 or 50 Kgs, in big bags of 1.000 Kgs and in metal drums of 250 Kgs. The liquid material can be delivered in tankers or IBC'S of 1.000 lts. All the packaging we use is UN approved.
Zinc Chloride is an excellent water soluble crystalline Zinc source for uses compatible with chlorides. Chloride compounds can conduct electricity when fused or dissolved in water. Chloride materials can be decomposed by electrolysis to chlorine gas and the metal. They are formed through various chlorination processes whereby at least one chlorine anion (Cl-) is covalently bonded to the relevant metal or cation. Ultra high purity and proprietary formulations can be prepared. The chloride ion controls fluid equilibrium and pH levels in metabolic systems. They can form either inorganic or organic compounds. Zinc Chloride is generally immediately available in most volumes. High purity, submicron and nanopowder forms may be considered. We also produce Zinc Chloride Solution. American Elements produces to many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available.
Additional technical, research and safety (MSDS) information is available as is a Reference Calculator for
converting relevant units of measurement.
Butter of zinc
Zinc (chlorure de)
Zinc butter
Zinc chloride
EC Inventory, Ataman Kimya, Pre-Registration process, Other, EU. Cosmetics Regulation, Annex III, Restricted Substances, EU. Worker Protection-Hazardous (98/24), EU. Dangerous Substances - Eco-Labels, EU. Workplace Signs, EU. Hazardous Waste Properties: Annex III (2008/98/EC), EU. Young People at Work (94/33)
Zinc chloride (ZnCl2)
Zinc chloride in plastic container
ZINC CHLORIDE SOLUTION
EU. ADN Dangerous Goods Lists, Directive 2008/68/EC, EU. ADR Dangerous Goods Lists, Directive 2008/68/EC, EU. RID Dangerous Goods Lists, Directive 2008/68/EC
Zinc chloride, (solution)
ZINC CHLORIDE, ANHYDROUS
EU. ADN Dangerous Goods Lists, Directive 2008/68/EC, EU. ADR Dangerous Goods Lists, Directive 2008/68/EC, EU. RID Dangerous Goods Lists, Directive 2008/68/EC
Zinc dichloride
Zinc(II) chloride
Zinco (cloruro di)
Zine dichloride
Zintrace
Other
chlorek cynku(II) (pl)
chlorid zinečnatý (cs)
chlorid zinočnatý (sk)
chlorure de zinc (fr)
cink-klorid (hu)
cinka hlorīds (lv)
cinko chloridas (lt)
cinkov klorid (hr)
cloreto de zinco (pt)
clorura de zinc (ro)
cloruro de cinc (es)
cloruro di zinco (it)
dichlorek cynku (pl)
sinkkikloridi (fi)
sinkklorid (no)
Tsinkkloriid (et)
zinkchlorid (da)
Ataman Kimya
zinkchloride (nl)
Ataman Kimya
zinkklorid (sv)
Ataman Kimya
χλωρίδιο του ψευδαργύρου (el)
Ataman Kimya
цинков хлорид (bg)
Ataman Kimya
Dichlorozinc
Ataman Kimya, Other
nc chloride
Ataman Kimya
zinc cloride
Zinc oxide
Ataman Kimya
zinc(2+) dichloride
Other
zinc(2+) ion dichloride
zinc-chloride-
Ataman Kimya
Hegaflux AS
Zinc (II) Chloride
Zinkchlorid, freilaufend
Zinc dichloride, Zinc(II) chloride, Dichlorozinc, Zinc Butter, cas 21351-91-7 (zinc chloride hydrate / hydrated)
Butter of zinc
Other
Zinc (chlorure de)
Other
Zinc butter
Other
Zinc chloride
EC Inventory, Ataman Kimya, Pre-Registration process, Other, EU. Cosmetics Regulation, Annex III, Restricted Substances, EU. Worker Protection-Hazardous (98/24), EU. Dangerous Substances - Eco-Labels, EU. Workplace Signs, EU. Hazardous Waste Properties: Annex III (2008/98/EC), EU. Young People at Work (94/33)
Zinc chloride (ZnCl2)
Other
Zinc chloride in plastic container
Other
ZINC CHLORIDE SOLUTION
EU. ADN Dangerous Goods Lists, Directive 2008/68/EC, EU. ADR Dangerous Goods Lists, Directive 2008/68/EC, EU. RID Dangerous Goods Lists, Directive 2008/68/EC
Zinc chloride, (solution)
Other
ZINC CHLORIDE, ANHYDROUS
EU. ADN Dangerous Goods Lists, Directive 2008/68/EC, EU. ADR Dangerous Goods Lists, Directive 2008/68/EC, EU. RID Dangerous Goods Lists, Directive 2008/68/EC
Zinc dichloride
Other
Zinc(II) chloride
Other
Zinco (cloruro di)
Other
Zine dichloride
Other
Zintrace
Other
Translated names
chlorek cynku(II) (pl)
Ataman Kimya
chlorid zinečnatý (cs)
Ataman Kimya
chlorid zinočnatý (sk)
Ataman Kimya
chlorure de zinc (fr)
Ataman Kimya
cink-klorid (hu)
Ataman Kimya
cinka hlorīds (lv)
Ataman Kimya
cinko chloridas (lt)
Ataman Kimya
cinkov klorid (hr)
Ataman Kimya
cloreto de zinco (pt)
Ataman Kimya
clorura de zinc (ro)
Ataman Kimya
cloruro de cinc (es)
Ataman Kimya
cloruro di zinco (it)
Ataman Kimya
dichlorek cynku (pl)
Ataman Kimya
sinkkikloridi (fi)
sinkklorid (no)
Tsinkkloriid (et)
zinkchlorid (da)
zinkchloride (nl)
zinkklorid (sv)
χλωρίδιο του ψευδαργύρου (el)
цинков хлорид (bg)
IUPAC names
Dichlorozinc
nc chloride
zinc cloride
Zinc oxide
zinc(2+) dichloride
zinc(2+) ion dichloride
zinc-chloride-
Hegaflux AS
Zinc (II) Chloride
Zinc chloride [Wiki]
231-592-0 [EINECS]
7646-85-7 [RN]
86Q357L16B
Additive Screening Solution 29/Kit-No 78374
dichlorozinc
Dichlorure de zinc [French] [ACD/IUPAC Name]
MFCD00011295 [MDL number]
ZH1400000
ZINC CHLORIDE ZN-65
Zinc dichloride [ACD/IUPAC Name]
zinc(II) chloride
zinc(ii) dichloride
Zinkchlorid [German]
Zinkdichlorid [German] [ACD/IUPAC Name]
[7646-85-7]
21351-91-7 [RN]
24359-56-6 [RN]
53917-99-0 [RN]
99.95% (metals basis)
ACS, 97%
butter of zinc
C016837
chlorure de zinc
Chlorure de zinc [French]
EINECS 231-592-0
Galvanizers Flux
hexite
https://www.ebi.ac.uk/chebi/searchId.do?chebiId=CHEBI:49976
Hydrochloric acid zinc salt (2:1)
Tinning flux
UN 1840
UN 2331
UNII:86Q357L16B
UNII-86Q357L16B
WLN: ZN G2
Zinc (chlorure de)
Zinc (chlorure de) [French]
zinc (II) chloride
zinc and dichloride
Zinc atomic spectroscopy standard concentrate 1.00 g Zn
Zinc butter
Zinc chloride (99.99%-Zn) PURATREM
Zinc chloride (JP15/USP) [USP]
Zinc chloride (TN)
Zinc Chloride ACS USP
Zinc Chloride Solution 50%
Zinc chloride, 0.5M solution in THF
Zinc chloride, 0.7M solution in THF
Zinc chloride, 1.9M in 2-MeTHF
Zinc chloride, 1M in diethyl ether
Zinc chloride, 25mM aqueous solution
Zinc Chloride, ACS grade -10 mesh
Zinc chloride, anhydrous [UN2331] [Corrosive]
Zinc chloride, anhydrous, USP grade
Zinc chloride, ultra dry
ZINC CHLORIDE|DICHLOROZINC
Zinc dichloride fume
Zinc muriate
Zinc standard concentrate 10.00 g Zn
zinc(2+) chloride
ZINC(2+) DICHLORIDE
zinc(ii)chloride
Zincchloride
Zinco
Zinco (cloruro di)
Zinco (cloruro di) [Italian]
Zinctrace
Zine dichloride
Zinkchlorid
Zinkchlorid [German]
Zinkchloride
Zinkchloride [Dutch]
Zintrace
氯化锌 [Chinese]
USES
Dry Cell or Batteries: Zinc Chloride is commonly used in dry cell batteries as an electrolyte where it also acts as a moisture absorbent and corrosion inhibitor. ZnCl2 is an excellent water soluble Zinc source for uses compatible with chlorides. Chloride compounds can conduct electricity when fused or dissolved in water. Chloride materials can be decomposed by electrolysis to chlorine gas and the metal. They are formed through various chlorination processes whereby at least one chlorine anion (Cl-) is covalently bonded to the relevant metal or cation. the item is generally immediately available in most volumes and high purity.
A zinc chloride battery is a heavy duty variation of a zinc carbon battery. It is used in applications that require moderate to heavy current drains. Zinc chloride batteries have better voltage discharge per time characteristics and better low temperature performance than carbon zinc batteries. They batteries are used in radios, flashlights, lanterns, fluorescent lanterns, motor driven devices, portable audio equipments, communications equipments, electronic games, calculators, and remote control transmitters.
Electroplating : Today, there are three primary types of acid zinc plating baths: straight ammonium chloride, straight potassium chloride and mixed ammonium chloride/potassium chloride. Acid zinc plating systems have several advantages over alkaline cyanide and alkaline non-cyanide zinc plating systems except that in acid zinc plating, the electrolyte is extremely corrosive.
Ammonium chloride zinc plating. The ammonium chloride bath is the most forgiving of the three major types of acid zinc plating because of its wide operating parameters. The primary drawback of this system is the high level of ammonia, which can cause problems in wastewater treatment. Ammonia acts as a chelator, and if the rinse waters are not segregated from other waste streams, removal of metals to acceptable levels using standard water treatment practices can be difficult and expensive. Ammonia is also regulated in many communities.
Potassium chloride zinc plating. Potassium chloride zinc plating solutions are attractive because they contain no ammonia. The disadvantages of this system are a greater tendency to burn on extreme edges and higher operating costs. The potassium bath also requires the use of relatively expensive boric acid to buffer the solution and prevent burning in the high-current-density areas, functions performed by the ammonium chloride in the other systems.
Mixed ammonium chloride/potassium chloride zinc plating. This bath combines the best of the ammonia and ammonia-free baths. Because potassium chloride is less expensive than ammonium chloride, the maintenance costs of the mixed bath are lower than the ammonia bath, and it does not require boric acid. The ammonia levels in the rinse waters are low enough that it does not significantly interfere with wastewater treatment, even if plating nickel and copper in the same plant with mixed waste streams. If local regulations restrict the level of ammonia discharged, special waste treatment equipment will be required, and the non-ammonia bath is most likely the best choice.
Galvanizing, Soldering and Tinning Fluxes: Zinc Chloride is used in fluxes for galvanizing, soldering and tinning. Its ability to remove oxides and salts from metal surfaces insures good metal to metal bonding. It has the ability to attack metal oxides (MO) to give derivatives of the formula MZnOCl2. This reaction is relevant to the utility of ZnCl2 as a flux for soldering - it dissolves oxide coatings exposing the clean metal surface. Typically this flux was prepared by dissolving zinc foil in dilute hydrochloric acid until the liquid ceased to evolve hydrogen; for this reason, such flux was once known as killed spirits or "Marela".
Agriculture: It is very rarely used in agriculture. It may be reacted with chelating agents to form solutions of zinc that are biologically available to plants and animals. It's the Chelate manufacturing that consumes Zinc Chloride.
Petroleum: It is an excellent emulsion breaker and is used to separate oil from water. It is also an effective packer fluid in oil and gas wells due to its high specific gravity. However its a little more costly than the other low specific gravity fluids used in the process.
Water Treatment: It is used in specialty corrosion inhibitors in cooling towers, potable water, and in gas and oil wells.
Resins: It is used in Ion - Exchange resins production.
Paints: It is used in for the production of lithopone and as pigment for zinc chromate.
Rubber: It is used as accelerator in the vulcanizing process of rubber.
Glue, wood working: It is used in for the preservation of glue, and for the impregnation of timber.
Printing: It is used in off-set in the chemical products.
Odor Control: It reacts with sulfide to minimize release of H2S gas in waste treatment facilities.
Oil-Gas Wells: High-density solutions of zinc chloride and calcium chloride give good performance in well completion and work-over operations; the solutions also used as packer
fluids under certain well conditions. Zinc chloride has been used in specialty corrosion inhibitors and invert emulsion breakers.
Vulcanized Fiber & Reclaimed Rubber: Water-leaf paper is gelatinized with zinc chloride solution is lesstacky, drier and less moisture-absorbent than caustic reclaimed rubber.
The zinc chloride not only dissolves the cellulosic fibers in the scrap, but also catalyzes depolymerization of the elastomer. Similar method is used for Rubber reclaimed from
natural, styrene-butadiene rubber (SBR), and mixed scrap
Animal drug: Zinc Chloride is used for the production of zinc bacitracin.
Herbicide: Zinc Chloride is used as an herbicide. It is used to control lichen and moss growing on the roofs of houses and other domestic dwellings, along walks, driveways, fences,
and wherever moss grows
Chemical: Zinc Chloride is used in the production of ethyl acetate. It is used as condensing agent for the production of organic dye-stuff. It is used as a stabilizing agent for
diazonium compounds. It is used for the production of active carbon. Zinc Chloride is used for Friedel Craft Reaction, Azotropic or Azeotropic Distillation, Desiccation. Zinc laurate,
linoleate Stearate or resinate can be formed from zinc chloride solutions and solutions of the corresponding sodium salt. Zinc chloride is a Lewis acid and therefore electrophilic in
character. Its catalytic activity is milder than that of aluminum chloride in, for example, Friedel-Crafts type reactions. Zinc chloride is particularly effective in catalyzing reactions
that eliminate molecules of water, ammonia or mercaptans. Its solutions gelatinize cellulosic materials and induce crosslinking in such polymer formers as the methylol ureas. It absorbs
readily on charcoal or silica for catalyzing acylations and alkylations by Friedel-Crafts synthesis. In esterifications and condensation reactions, it facilitates the elimination of
water or ammonia molecules from the reactants. One example is the Fischer idole synthesis.
Miscellaneous:
Zinc Chloride has been used as a catalyst in production of methylene chloride from methyl alcohol.
In the textile industry it has found use in resin systems to impart durable press to cotton and synthetic fabrics.
It has been used in reclaiming rubber where it dissolves rayon cord.
In conjunction with sodium dichromate it has made an excellent wood preservative.
Zinc Chloride has found use in the manufacture of glue, diazo dyes, paper, cosmetics, rayon, synthetic fibers, disinfectants and fire fighting foam.
In ore refining it has been used as a flotation agent.
It is an excellent source of zinc as a starting material in the production of other zinc chemicals and is an effective catalyst for removing molecules of water, ammonia or mercaptants.
Zinc Chloride is used for Friedel Craft Reaction, Azotropic or Azeotropic Distillation, Desiccation & Karl Fischer.
In the laboratory, zinc chloride finds wide use, principally as a moderate-strength Lewis acid. It can catalyze the Fischer indole synthesis and also Friedel-Crafts acylation reactions
involving activated aromatic rings.
Related to the latter is the classical preparation of the dye fluorescein from phthalic anhydride and resorcinol, which involves a Friedel-Crafts acylation.
Hydrochloric acid alone reacts poorly with primary alcohols and secondary alcohols, but a combination of the acid with Zn (known together as the "Lucas reagent") at 130°C is effective
for the preparation of alkyl chlorides. This probably reacts via an SN2 mechanism with primary alcohols but via SN1 with secondary alcohols.
Zinc chloride is also able to activate benzylic and allylic halides towards substitution by weak nucleophiles such as alkenes.
In similar fashion, Zinc Chloride promotes selective NaBH3CN reduction of tertiary, allylic or benzylic halides to the corresponding hydrocarbons.
Zinc chloride is also a useful starting point for the synthesis of many organo zinc reagents, such as those used in the palladium catalyzed Negishi coupling with aryl halides or vinyl
halides. In such cases the organozinc compound is usually prepared by transmetallation from an organolithium or a Grignard reagent.
Zinc enolates, prepared from alkali metal enolates and ZnCl2, provide control of stereochemistry in aldol condensation reactions due to chelation on to the zinc. This is because
the chelate is more stable when the bulky phenyl group is pseudo-equatorial rather than pseudo-axial, i.e., threo rather than erythro.
